Given a family of Boolean algebras $\mathcal{B}=\{B_i\colon i\in I\}$ with respective Stone spaces $S_i$. Recall that the algebra of clopen (both closed and open) subsets of the product space

$$\prod_{i\in I}S_i$$

is said to be the free product of $\mathcal B$. This algebra is typically denoted by

$$\bigotimes_{i\in I}B_i$$

(and I will use the standard "tensor" notation for finite free products in the obvious manner).

I am interested in the (possible) Boolean algebras which admit only very particular decomposition in terms of the free product:

Is there an uncountable Boolean algebra $B$ such that if $B$ is isomorphic to $A\otimes C$ then either $A$ or $C$ is countable?